Moisture Proof Telescoping Coupler Assembly for Electric Metal Tubes with Enhanced Grounding and Sealing

ABSTRACT

A moisture proof, telescoping coupler assembly for electric metal tubes and threaded rigid pipe with an enhanced grounding arrangement both internally and externally for electrically grounding the telescoping tube to the coupler body, Moisture proof sealing is improved by centering the electric metal tube within the coupler body adjacent the seal preventing possible leaking after securing the electric metal tube to one end. A modified arrangement utilizes a snap fitting retaining ring for securing an electric metal tube to the coupler body to provide for unidirectional insertion of an electric metal tube into the open end of a coupler body in a manner that prohibits unintentional separation of the tube and/or retainer ring from the coupler body.

RELATED APPLICATION

This application is a continuation-in-part of application Ser. No.12/080,201 filed Apr. 1, 2008.

FIELD OF THE INVENTION

This invention is generally directed to an expansion or telescopingcoupler assembly for electrical metal tubes and more specifically to amoisture proof telescoping or expanding coupler assembly with anenhanced electrical grounding arrangement for coupling an electric metaltube that is in relative sliding relationship to a coupler body.

BACKGROUND OF THE INVENTION

Heretofore, there exists various known types of coupler fittings forattaching an electric metal tube (EMT) to an electrical installationsuch as an electric box or panel or for joining at least two electricalmetal tubes in an end-to-end relationship. Such known coupler assembliesinclude a coupler body to which the electrical metal tubes are rigidlyconnected to the coupler body, e.g. as disclosed in U.S. Pat. Nos.268,686; 3,976,314; 4,073,514; 4,091,523. Other known coupler assembliesinclude a coupler body wherein at least one connected electrical metaltube is permitted to telescope or slide relative to the coupler body orrelative to another electrical metal tube fixedly connected to thecoupler body, e.g. as disclosed in U.S. Pat. Nos. 5,141,258 and6,715,803.

With respect to such known sliding or telescoping coupler assemblies, ithas been noted that because of the relatively free or slidingrelationship between the moveable electrical metal tube relative to thecoupler body, the optimal electrical grounding effect therebetween issubstantially diminished because of insufficient contact between thecomplementary surfaces of the movable electrical metal tube and theassociated coupler body due to the required tolerance necessary topermit the desired telescoping between the moveable electric tube andthe associated coupler body. Thus, the optimum desired amount of theelectrical grounding effect therebetween is not achieved.

Additionally, problems have been encountered in grounding beingdiminished or compromised over time resulting in poor grounding.Additionally, movement of conduits or electric metal tubing duringsecuring of the electric metal tubing has often led to poor sealing.

Therefore, there is a need for a telescoping coupler assembly withimproved grounding and sealing.

SUMMARY OF THE INVENTION

It is therefore an object of the present invention to provide a couplerassembly that has a coupler body with an inlet end portion arranged fortelescopically receiving an electric metal tube in sliding relationshiprelative thereto and wherein the optimum desired amount of an electricalgrounding is achieved.

Another object is to provide a telescoping coupler assembly having anarrangement for prohibiting the seepage of moisture into the couplerassembly and the relative telescoping members.

Another object is to provide a telescoping coupler assembly having acoupler body for slidably receiving an electric metal tube connectedthereto that is positively electrically grounded to the coupler body.

Another object is to provide a telescoping coupler assembly forelectrical metal tubes which is relatively simple in structure, easy tomanufacture, positive in operation, and moisture proof.

It is an advantage of the present invention that electrical grounding ismade more reliable.

It is another advantage of the present invention that an improvedweather tight sealing is obtained while attaching or tightening anelectric metal tube to the telescoping coupler assembly.

It is a feature of the present invention that an internal groundingcantered spring is used.

It is another feature of the present invention that a cam or ramp havinga predetermined radial dimension range is placed adjacent a seal.

The foregoing objects and other features and advantages are attained bya telescoping coupler assembly that includes a coupler body for securingan electrical metal tube to an electrical structure such as anelectrical box or panel or for connecting at least a pair of electricalmetal tubes in end-to-end relationship wherein at least one of theelectric metal tubes is rendered movable relative to the other. Thecoupler body includes a bore extending therethrough to define opposedopen ends. One open end of the coupler body may be adapted to be fixedlyconnected to an electric box, panel, or adapted to receive anotherelectric metal tube. The other open end of the coupler body forreceiving an electric metallic tube is sized and shaped totelescopically receive an end portion of the electric metal tube forrelative sliding or telescoping movement with respect thereto. The endof the coupler body adapted for securing the coupler body to anelectrical box or panel may be formed to accommodate a lock nut or asnap fit adaptor such as disclosed in U.S. Pat. Nos. 6,555,750,6,737,584, 6,916,688, 6,935,891 or other like patents. Alternatively,each of the opposed ends of the coupler body may be formed to snuglyreceive electric metal tube wherein one electric metal tube is fixedlysecured to the coupler body by means of a fastener, and the otherelectric metal tube is telescopically mounted relative to the other endof the coupler body, as illustrated herein.

Connected adjacent to the end of the coupler body for receiving thetelescoping tube is a grounding means that includes a grounding ringwhich is arranged to be slipped onto and fixedly secured to an endportion of the electrical metal tube telescopically fitted into thecorresponding open end of the coupler body.

The grounding ring is connected to the coupler body by a wire meshgrounding strap of a predetermined length sufficient to provide for therelative sliding or telescoping movement of the moveable electric metaltube relative to the coupler body. The arrangement is such that themoveable electric metal tube is positively electrically grounded to thecoupler body throughout its entire range of movement to provide foroptimal electrical grounding between the coupler body and the associatedtelescoping electric metal tube.

Disposed within the bore of the coupler body are sealing rings forrendering the coupler assembly moisture proof without seriously limitingthe relative sliding relationship between the telescoping electric metaltube and the associated coupler body.

Additionally, a cantered grounding spring is placed around the internalcircumferential surface of the coupler body providing internalelectrical grounding and continuity between the coupler body andattached electric metal tubing, rigid pipe, or other conductiveconduits.

A ramp or cam placed within the coupler body adjacent a sealing ring orseal improves sealing when a set screw is used to secure the electricalmetal conduit within an adjacent end. The ramp or cam centers theelectrical metal conduit adjacent the seal so that a uniformcircumferential sealing pressure is obtained.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a telescoping coupler assembly for anelectric metal tube embodying the present invention.

FIG. 2 is a perspective view of the coupler body, absent the moveableelectric metal tubes.

FIG. 3 is a top view of FIG. 2.

FIG. 4 is a section view of the coupler body taken along line 4-4 onFIG. 3.

FIG. 5 is a longitudinal sectional view of the coupler assembly of FIG.1.

FIG. 6 is a detail perspective view of a modified tube retainer forfixedly securing an electric metal tube to the coupler body.

FIG. 7 is a fragmentary sectional view of a modified form of theinvention utilizing the modified tube retainer of FIG. 6 wherein thelimiting tang and retainer tang are shown in their operative positions.

FIG. 8 is a sectional view similar to FIG. 7, wherein the tube retainingtang is shown in the operative position.

FIG. 9 is a perspective view illustration another embodiment of thecoupler body of the present invention.

FIG. 10 is a cross sectional view taken along line 10-10 in FIG. 9.

FIG. 11 is a partial cross sectional view of one end of the couplerbody.

FIG. 12 is a partial cross sectional view of one end of the coupler bodyillustrating the operation of the cam or ramp.

FIG. 13 is a partial cross sectional view of the other end of thecoupler body illustrating the cantered grounding spring.

FIG. 14 is a partial cross sectional view of the other end of thecoupler body illustrating the electrical coupling of the canteredgrounding spring with the electric metal tube.

FIG. 15 is a partial exploded view illustrating another embodiment ofthe present invention adapted for use with threaded rigid electric metalpipe.

FIG. 16 is a partial cross section of one end of the embodimentillustrated in FIG. 15 illustrating use with threaded rigid electricmetal pipe.

FIG. 17 is a partial cross section of the other end of the embodimentillustrated in FIG. 15 illustrating use with threaded rigid electricmetal pipe.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to the drawings there is illustrated in FIG. 1 a telescopingcoupler assembly 10 embodying the invention. As shown, the couplerassembly 10 includes a coupler body 11 comprising an elongated tube orcylinder of a predetermined length defining a bore 13 extendingtherethrough that is opened at the opposed ends 11A, 11B of the couplerbody 11. In the illustrated embodiment of FIG. 1 the coupler body 11 isconfigured to connect at least two electric metal tubes 14 and 15 inend-to-end relationship wherein one electric metal tube, e.g. tube 14,is arranged to be received within the end opening 11B of the couplerbody 11 and fixedly secured thereto by means of suitable fasteners e.g.one or more set screws 16. The other electric metal tube 15 is adaptedto be slidably received within the other open end 11A of the couplerbody 11. The arrangement is such that tube 15 is rendered slidably ortelescopically mounted within the open end 11A of the coupler body 11 toaccommodate any protracting or retracting movement of the electric metaltube 15 relative to the coupler body 11 or the other metallic electrictube 14 fixedly connected to the coupler body 11.

As best seen in FIG. 4, the coupler body 11 is provided with acircumscribing inwardly projecting external groove 17 to define aninternal stop shoulder 17A. The shoulder stop 17A functions to limit thedistance that the fixed tube 14 may be inserted into the open end 11B ofthe coupler body 11 as noted in FIG. 5. As shown in FIG. 5, the stopshoulder 17A is located along the length of the coupler body 11 at apoint closer to the end opening 11B than to end opening 11A. Thearrangement is such that the longer portion A of the coupler body 11 tothe right of the stop shoulder 17A has a length sufficient for theelectric metal tube 15 to be telescopically mounted relative thereto soas to be slidably displaced therein as the tube 15 telescopes relativeto the coupler body 11 so as to not allow the movable tube 15 toseparate from the coupler body 11.

To prohibit any moisture or water from entering into the couplerassembly and the tubes connected thereto, the coupler body is providedwith end seals 18-18. As shown at least two such end seals 18-18 areprovided, one to either side of the stop shoulder 17A.

The seat 18A for accommodating the respective seals 18-18 is defined bya circumscribing internal grove 18A which is formed in any suitablemanner, e.g. by swedging, pressure rolling or molding to deform thematerial of the coupler body as illustrated in FIG. 5. While theillustrated embodiment of FIG. 5 is described as having one seal 18 onopposite sides of the internal stop 17A, it will be understood that thenumber of such seals may be varied as required.

As shown in FIG. 1, the insertion of electric metal tube 14 into theopened end 11B of the coupler body 11 is limited by the internal stop17A. With the tube 14 properly seated in the open end 11B of the couplerbody 11, the tube 14 is fixedly secured thereto by means of a suitablefastener, e.g. set screw 16.

The slidable or telescoping tube 15 is inserted into the other open end11A of the coupler body 11. The length A of the coupler body 11 issufficient to permit tube 15 to be slidably disposed relative theretowithout causing the tube 15 to be separated therefrom. In other words,the length A of the coupler body is greater than the maximum permittedlinear displacement of the tube 15 within the coupler body 11.

Because tube 15 is slidably disposed within the coupler body 11, thecoupler body is provided with a means for insuring the maximumoptimizing of a positive electrical ground between telescoping tube 15and the coupling body 11. In the illustrated embodiment, this isattained by a grounding ring 19 which is sized and shaped so as to besnugly fitted onto an end portion of the slidable or telescoping tube15. Suitable fasteners such as set screws 20 fixedly secure thegrounding ring 19 to the telescoping metal tube 15.

A grounding strap 21 connects the grounding ring 19 to the coupler body11. A mounting plate 21A and 21B is connected to each end of thegrounding strap 21 to provide the means whereby the grounding strap 21is securely fixed to the grounding ring 21 and coupler body 11 bysuitable fasteners, such as bolts or screws 22-22. Preferably thegrounding strap portion 21C connected between the opposed end mountingplates 21A and 21B comprises a woven wire mesh strap 21C that rendersthe grounding strap 21 flexible for accommodating the telescoping orsliding movement of tube 15 relative to the coupler body. Thus thegrounding strap 21 is free to flex or stretch in accordance with thelinear or telescoping displacement of the electric metal tube 15 as thetube 15 telescopes or slides relative to the coupler body 11. In doingso, the grounding effect of the movable tube relative to the couplerbody 11 is maximized throughout the entire telescoping range of thecoupler assembly.

By providing seals 18 between the coupler body 11 and the respectiveassociated electric tubes 14 and 15, the coupler assembly 10, described,also prohibits moisture or water from seeping into the coupler assembly10 and the electrical tubes 14, 15 associated therewith.

While the embodiments illustrate the coupler body 11 having opposed endopenings 11A, 11B of substantially equal diameters, it will beunderstood that the coupler body 11 may have opposed end openings withdifferent sized diameters for connecting electric metal tubes ofcorresponding different diameters in end-to-end relationship.

It will also be noted that the short end B of the connector body 11 maybe formed for accommodating a snap fit locking ring (not shown) of thetype disclosed in U.S. Pat. Nos. 6,555,750, 6,737,584, 6,860,758,6,935,891 and 6,916,988 and the like whereby one end of the coupler body11 may be formed to be snap fitted or secured to an electronic box orpanel in the manner described in the foregoing noted U.S. patents whichare incorporated by reference herein in the event it is desirable tocouple a telescoping electric metal tube directly to an electric box orpanel.

With the foregoing described structures it will be noted that theelectrical grounding effect between the telescoping electric metal tube15 and the coupler body 11 is rendered more positive than simply relyingmerely upon the sliding motion of the telescoping metal tube relative tothe coupler body to produce the electrical ground effect, which may beproblematic due to a space tolerance required between the sliding tubeand the coupler body.

FIGS. 6 and 7 are directed to a modified form of the invention. Thecoupler assembly 10A is similar to the coupler assembly 10 hereindescribed with the exception that the means for fixedly securing thefixed electric metal tube 25 to the coupler body 26 is achieved by aretainer ring 27 constructed to permit the fixed tube 25 to be snapfitted into one end 26A of the coupler body 26 that will also resist anyunintentional separation of the fixed tube 25 from the coupler body 26by an unintentionally applied force tending to cause separation of thefixed tube 25 from the coupler body 26.

As illustrated in FIG. 6, the retaining ring 27 is preferably formed ofspring steel with a circular configuration capable of being insertedinto the end opening 26A of the coupler body 26. In the illustratedembodiment, the retaining ring 27 has its opposed ends 27A and 27Bslighted spaced apart to form a split ring. As the material of theretainer ring 27 is formed of spring steel, the described retainer ring27 has an inherent resiliency which in its relaxed state is providedwith an outer diameter that is slightly greater than the internaldiameter D of the open end 26A of the coupler body 26.

Referring to FIG. 6, the split ring retainer 27 is provided with aleading edge 27C, a trailing edge 27D, and a plane surface 27Etherebetween. Blanked or formed out of the plane surface 27E are one ormore tube retaining tangs, 28, one or more locking tangs 29, and one ormore limit tangs 30. As shown in FIG. 6 the tube retaining tangs 28, thelocking tangs 29 and limit tangs 30 are alternating andcircumferentially spaced about the circumference of the retaining ring27.

The tube retaining tangs 28 are inwardly bent out of the plane surface27E and are inclined or angled in the direction of the leading edge 27Aof the retainer ring 27. The locking tangs 29 are outwardly bentrelative to the plane surface 27E of the retainer ring 27 and areoppositely inclined or angled toward the trailing edge 27D of theretainer ring 27. The limit tangs 30 are also blanked or formed out ofthe plane surface and outwardly bent relative to the plane surface 27Eand are angled or inclined toward the leading edge of the retaining ring27.

As illustrated in FIG. 7, the retainer ring 27 being split may becompressed to permit the retainer ring 27 to be inserted into the openend 26A of the coupler body 26. The arrangement is such that with theretainer ring in its compressed state when inserted into the end opening26A, will cause the outwardly bent limit tang 30 to engage an internalsurface portion of the coupler body upon the removal of the compressingforce thereon to limit the distance the retainer ring 27 may be insertedinto said end opening 26A.

Upon releasing the compression force acting on the retainer ring 27, theinherent resiliency of the split retainer ring 27 will cause thediameter of the retainer ring 27 to expand with a sufficient force tofixedly secure the retainer ring 27 within the end opening 26A wherebythe outwardly bent locking tangs 29 will impart an additional “bite”force against the inner surface of the end opening to resist anyunintentional pull out force that may be applied on the retainer ring.

With the retainer ring 27 frictionally secure within the open end 26A ofthe connector body 26, as above described, the arrangement is such thatthe electric metal tube 25 can be fixedly secured to the end opening 26Aof the coupler body 26 by simply pushing the end portion of electrictube 25 into the end opening 26A and through the retainer ring 27 untilthe end of the tube 25 engages the internal stop 31. As the end of theelectric metal tube 25 passes through the retainer ring 27 the tuberetaining tangs 29, which are inwardly bent as described herein, willinherently exert a holding or biting force on the electric metal tubesufficient to resist an unintentional pulling force imparted onto theelectric metal tube 25. In all other respects, the embodiment disclosedand described with the embodiment of FIGS. 6 and 7 is similar to theembodiments herein before described with respect to FIGS. 1 to 5.

The locking tangs 29, being outwardly bent, are sufficiently resilientso as to flex inwardly permitting the retainer ring to also pass throughthe end opening 26 of the coupler body 26 and spring outwardly, whenring 27 is fully seated, to bite into the internal surface of the boreof the coupler body to resist or prohibit unintentional separation ofthe retaining ring 27 from the coupler body in the assembled position.

With the retainer ring 27 described, installation of the electric metaltube 25 to the coupler body 26 may also be effected by positioning theretaining ring 27 onto the end of the electric metal tube 25, and theninserting the electric metal tube with the retainer ring 27 securedthereto into the end opening 26A of the coupler body 26 until the end ofthe tube engages the stop shoulder 30 as noted in FIG. 7. In thisassembled position, as seen in FIG. 7, the tube retaining tangs 28,which are inwardly bent and inclined in the direction of the leadingedge 27C of the retaining ring 27, are bias to exert a biting force ontothe metal tube 26 with a force sufficient to prohibit unintentionalseparation of the tube 25 therefrom. At the same time the outwardly bentlocking tangs 29, inclined in the direction of the trailing edge 27D,will exert a biting force onto the internal surface of the bore 32 toresist unintentional withdrawal of the retainer ring 27 and theassociated tube 25 from the open end 26A of the coupler body 26.

FIGS. 9-17 illustrate another embodiment of the present invention. Thisembodiment of the present invention utilizes an internal canteredgrounding spring. The coupler body 111 has a first opposed end 111A anda second opposed end 111B. Adjacent the second opposed end 111B are setscrews 116. Adjacent the first opposed end 111A is attached an endmounting plate 121B attached to the coupler body 111 by screw or bolt122. Attached to the end mounting plate 121B is a grounding strap 121.The grounding strap 121 is attached to grounding ring 119 by endmounting plate 121A and screw or bolt 122. Also attached to thegrounding ring 119 are set screws 120.

FIG. 10 more clearly illustrates the improvements in this embodiment ofthe present invention that make for better sealing or weatherproofingand enhanced grounding. FIG. 10 is a cross section of the coupler body111 that more clearly illustrates the improvements in this embodiment.In this embodiment the coupler body 111 has several structuralenhancements to provide improved performance. To provide improvedsealing or weatherproofing, the internal shoulder 117A is utilizedhaving a ramp or cam 117B. The ramp or cam 117B is facing and adjacentthe second opposed end 111B. A seal 118, which may be an O-ring of apliable material such as rubber or silicone or other equivalent flexibleor compressible material, is placed within an internal circumferentialgrove 118A. The seal or sealing ring 118 is placed adjacent the ramp orcam 117B facing towards the open second opposed end 111B. An externalgrove 117 may be used to identify the position of the internal shoulder117A from the exterior of the coupler body 111.

The ramp or cam 117B greatly facilitates the centering of an electricmetal tube placed within the second opposed end 111B. Accordingly, thisimproved structure prevents leakage and improves the weather-tight sealof the telescoping coupler assembly.

Adjacent the other first opposed end 111A is another seal or sealingring 118 held within another internal circumferential groove 118A whichis adjacent an internal grounding spring groove 131A. Within theinternal grounding spring groove 131A is a cantered grounding spring131. The cantered grounding spring 131 has the helical coils of thespring cantered, or angled, relative to the perimeter of the spring sothat the spring is compliant or compressible in the radial direction.The grounding spring 131 is preferably copper so as to be electricallyconductive and provides electrical continuity or grounding to thecoupler body 111 and an electrical metal tube placed within the couplerbody 111.

Accordingly, as illustrated in FIG. 10, the telescoping coupler assemblyhas internal grounding through the grounding spring 131 and externalgrounding through the grounding strap 121. Therefore, should theexternal grounding strap 121 be compromised or severed, for whateverreason, the internal grounding spring 131 will provide adequategrounding. Accordingly, the present invention by providing an internalcantered grounding spring 131 provides enhanced or additional electricalgrounding.

FIGS. 11 and 12 more clearly illustrate the improved sealing orweather-tight feature of the present invention. In FIG. 11 the ramp orcam 117B positioned between the internal shoulder 117A and the seal orsealing ring 118 is more clearly illustrated. The ramp or cam 117B has alarger diameter 117C and a smaller diameter 117D. The distance betweenthe diameters or radial height between 117C and 117D is selected to bein the range of the radial dimensional tolerances of an electrical metaltube 114 intended to be placed within the second opposed end 111B. Thepositioning of the seal or sealing ring 118 adjacent the ramp or cam117B greatly improves the ability of the telescoping coupler assembly111 to be sealed so as to be weatherproof or weather-tight and morefully assures that a uniform seal is formed around the entire outercircumference of the electric metal tube 114. This is especiallyimportant when the set screws 116 are tightened to securely hold theelectric metal tube 114 in position. As the set screws 116 are tightenedthey tend to force the portion of the electric metal tube 114 adjacentthe set screw 116 to be non-concentric within the coupler body 110.Without the ramp or cam feature of the present invention, this mayresult in an uneven gap circumferentially formed around the electricmetal tube 114 making it difficult to seal or resulting in an unreliableseal. However with the ramp or cam 117B placed adjacent the seal orsealing ring 118, at least in the portion of the electric metal tube 114adjacent the seal or sealing ring 118 the gap formed around the externalsurface of the electric metal tube 114 will be substantially uniform andtherefore provide a much improved uniform seal less prone to leakage.The end of the pipe 114A will be wedged at a point longitudinally oraxially along the ramp or cam 117B. If the external diameter of theelectric metal tube 114 is at the low end of the design specification,the end 114A of the electric metal tube 114 will be nearly adjacent theinternal shoulder 117A. When the external diameter of the electric metaltube 114 is at the larger end of the design specification, the end 114Aof the electric metal tube 114 will come to rest closer to the largerdiameter 117C of the ramp or cam 117B and closer to the seal or sealingring 118. Accordingly, by providing a uniform spacing adjacent the sealor sealing ring 118 improved sealing and weatherproofing is obtainedwith little likelihood of leakage.

FIGS. 13-14 illustrate the enhanced grounding feature of the presentinvention. FIGS. 13-14 more clearly illustrate the structure andfunction of the internal grounding feature of this embodiment of thepresent invention.

FIG. 13 more clearly illustrates the cantered electrical groundingspring 131 retained within the internal grounding spring groove 131A.The electrical grounding spring 131 forms a circle or ring of helicalcoils. The helical coils of the grounding spring 131 are cantered orangled so as to make them readily compliant in the radial direction. Thehelical coils of the grounding spring 131 are in a plane that is angledrelative to the radial direction of the circle or loop formed by thehelical coils. Accordingly, when a radial pressure is applied to thecantered grounding spring 131 the helical coils comply in the radialdirection to maintain continuous contact with the inserted electricmetal tubing.

FIG. 14 illustrates the placement of an electric tube 115 within thefirst opposed end 111A so as to compress the cantered grounding spring131. Accordingly, the cantered grounding spring 131 creates anelectrical grounding connection between the electric metal tube 115 andthe coupler body 111. Therefore, this embodiment of the presentinvention provides both internal and external grounding. This improvessafety and enhances overall grounding of the telescoping couplerassembly. Therefore, should the external grounding strap be severed orremoved, the internal grounding will prevent an electrical groundingfault or discontinuity.

FIG. 15-17 illustrates another embodiment of the present invention thatis adapted to mate with electric rigid pipe that is threaded. In FIG. 15a sliding rigid pipe adaptor 140A has a sliding insert end 142A adaptedto be inserted into the first opposed end 111A. A threaded end 114A hasfemale threads 146A therein. The female threads 146A are adapted to mateand thread onto the male threads of a rigid pipe. Fixed rigid pipeadapter 140B has a fixed insert end 142B adapted to be inserted withinthe second opposed end 111B of the coupler body 111 and fixed therein byset screw 116. Threaded end 144B has female threads 146B adapted toreceive the male threads of a rigid pipe. When the fixed rigid pipeadaptor 140B is placed within the second opposed end 111B the set screws116 are tightened, securely holding the fixed rigid pipe adaptortherein. Similarly, the sliding rigid pipe adaptor 140A is placed withinthe first opposed end 111A and slidably retained therein. In thisembodiment the telescoping coupler assembly is adapted to be used withthreaded rigid electric pipe that is used as a conduit to containelectric wires.

FIG. 16 illustrates an end of the coupler body 111 holding the fixedrigid pipe adaptor 140B with female threads 146B inserted into theopposed end 111B. The fixed rigid pipe adaptor 140B is held securely inplace by a set screw 116, fastener, or other equivalent means forfixedly securing a metal tube. A rigid electric pipe 148 having malethreads 150 is illustrated mating with the fixed rigid pipe adaptor140B.

FIG. 17 illustrates the other end of the coupler body 111 holdingsliding rigid pipe adaptor 140A with the threaded end 146A. Threadedwithin the threaded end 146A is rigid electric pipe 152 having malethreads 154. The grounding ring is attached to the external groundingstrap and end mounting plate 121B may be attached to the sliding rigidpipe adaptor 140A or the rigid electric pipe 152 depending upon thelength of the sliding rigid pipe adaptor 140A. The sliding rigid pipeadaptor 140A is internally grounded by the grounding spring 131.

Accordingly, this embodiment of the present invention provides for animproved and enhanced telescoping coupler assembly that has improvedweatherproofing and grounding. Even when the external grounding strap121 is severed or removed, the internal grounding spring 131 remains ingrounding contact providing electrical continuity for grounding.

While the invention has been described with respect to the differentembodiments, other variations and modifications can be made withoutdeparting from the spirit or scope of the invention.

1. An electric metal tube coupler assembly comprising: a coupler bodyhaving a bore extending therethrough and having first and second opposedend openings adapted to receive an electric metal tube; a first sealplaced adjacent the first opposed end opening; an internal shoulderhaving a ramp facing the second opposed end; and a second seal placedadjacent said internal shoulder, whereby the ramp aids in centering theelectric metal tube within said coupler body when the electric metaltube is secured to said coupler body.
 2. An electric metal tube couplerassembly as in claim 1 wherein: the ramp has an radial dimension rangesubstantially equal to a predetermined outer radial dimension tolerancerange of the electric metal tube.
 3. An electric metal tube couplerassembly as in claim 1 further comprising: a set screw attached to saidcoupler body adjacent the second opposed end, whereby the electric metaltube is held within said coupler body.
 4. An electric metal tube couplerassembly as in claim 1 further comprising: a grounding spring grooveformed in the interior surface of said coupler body adjacent said firstseal; and a grounding spring placed within said grounding spring groove.5. An electric metal tube coupler assembly as in claim 4 wherein: saidgrounding spring comprises a cantered grounding spring.
 6. An electricmetal tube coupler assembly as in claim 4 wherein: said grounding springis made of copper.
 7. An electric metal tube coupler assemblycomprising: a coupler body having a bore extending therethrough andhaving first and second opposed end openings adapted to receive anelectric metal tube; a first seal placed adjacent the first opposed endopening; a grounding spring groove formed in the interior surface ofsaid coupler body adjacent said first seal; a grounding spring placedwithin said grounding spring groove; an internal shoulder facing thesecond opposed end; and a second seal placed adjacent said internalshoulder, whereby said grounding spring provides electrical continuitybetween said coupler body and an electrical metal tube placed withinsaid coupler body.
 8. An electric metal tube coupler assembly as inclaim 7 wherein: said grounding spring comprises a cantered groundingspring.
 9. An electric metal tube coupler assembly as in claim 7wherein: said grounding spring is made of copper.
 10. An electric metaltube coupler assembly as in claim 7 further comprising: an internalshoulder having a ramp facing the second opposed end.
 11. An electricmetal tube coupler assembly comprising: a coupler body having a boreextending therethrough and having opposed end openings, an electricmetal tube, said electric metal tube having an end portion adapted to beslidably received in one of said end openings, an inwardly extendingstop means disposed within said bore between said opposed end openings,sealing means disposed in said one end opening circumscribing said endportion of said electric metal tube, slidably disposed within said oneend opening, a grounding spring groove formed in the interior surface ofsaid coupler body adjacent said sealing means, a grounding spring placedwithin said grounding spring groove, a grounding ring connected to saidelectric metal tube, and a flexible grounding strap interconnecting saidgrounding ring to said coupler body, whereby the metal tube coupler isgrounded externally by said flexible grounding strap and internally bysaid grounding spring providing enhanced electrical grounding.
 12. Anelectric metal tube coupler assembly as in claim 11 further comprising:a ramp placed adjacent said inwardly extending stop means.
 13. Anelectric metal tube coupler assembly as in claim 11 further comprising:a second electrical metal tube adapted to be fitted into the other endopening of said coupler body, a second sealing ring circumscribing theend of said second electric metal tube within said other end opening,and means for fixedly securing said second electrical metal tube to saidother end opening.
 14. An electric metal tube coupler assembly as inclaim 11 wherein: said securing means includes a screw fastener.
 15. Anelectric metal tube coupler assembly as in claim 11 further comprising:a fixed rigid pipe adaptor placed within one of said opposed endopenings, and a sliding rigid pipe adaptor placed within another on ofsaid opposed end openings.
 16. A telescoping coupler assembly forcoupling electric metal tubes or pipes comprising: a coupler body havinga bore extending therethrough and having first and second opposed endopenings adapted to receive a metal tube; a first seal placed adjacentthe first opposed end opening; a grounding spring groove formed in theinterior surface of said coupler body adjacent said first seal; acantered grounding spring placed within said grounding spring groove; agrounding ring, whereby said grounding ring is capable of connected toan electric metal tube; a flexible grounding strap electricallyinterconnecting said grounding ring to said coupler body; an internalshoulder formed within said coupler body; a ramp adjacent said internalshoulder facing the second opposed end; a second seal placed adjacentsaid internal shoulder; and means, adjacent the second opposed end, forfixedly securing a metal tube to the second opposed end, whereby thetelescoping coupler assembly is grounded externally by said flexiblegrounding strap and internally by said cantered grounding springproviding enhanced electrical grounding and said ramp centers the metaltube within said coupler body adjacent said second seal.
 17. Atelescoping coupler assembly for coupling electric metal tubes or pipesas in claim 16 wherein: said means for fixedly securing comprises afastener.
 18. A telescoping coupler assembly for coupling electric metaltubes or pipes as in claim 16 further comprising: a sliding rigid pipeadaptor placed within the first opposed end opening; and a fixed rigidpipe adaptor placed within the second opposed end opening.